A novel 3-D model for cell culture and tissue engineering

## Abstract The common technique of growing cells on tissue culture plastic (TCP) is gradually being supplanted by methods for culturing cells in two‐dimensions (2‐D) on matrices with more appropriate physical and biological properties or by encapsulation of cells in three‐dimensions (3‐D). The uni

## Abstract Fibrinogen has a well‐established tissue engineering track record because of its ability to induce improved cellular interaction and scaffold remodeling compared to synthetic scaffolds. While the feasibility of electrospinning fibrinogen scaffolds of submicron diameter fibers and their

## Abstract Restrictive adhesions are a common complication of tendon injury and repair in the hand, resulting in severe dysfunction. Creating a barrier between the repair sites and surrounding tissue layers may prevent adhesions. We present the first stage in the process of developing a synovial b

## Abstract A medium perfusion system is expected to be beneficial for three‐dimensional (3D) culture of engineered bone, not only by chemotransport enhancement but also by mechanical stimulation. In this study, perfusion systems with either unidirectional or oscillatory medium flow were developed,